Pickup baler



figa- Aug. 11, 1942.

E. v. BARKER PICK-UP BALER Original Filed Nov. 2, 1939 6 Sheets-Sheet 2 Invznior E. V. BARKER PICK Aug. l1, 1942.

-UP BALER Orig-@nal Filed Nov. 2, 1939 6 Sheets-Sheet 3 `Ivm/m tor Esos V. Bmw

R l fornys h.. me

Aug. 1-1, 1942. E. v. BARKER v PICK-UP BALER Original Filed Nov. 2, 1939 6 Sheets-Sheet 5 A lm/uo ERosV, BRRKER Patented Aug. 11, 1942 PICKUP BALER Eros V. Barker, Bellevue, Ohio, assigner to The Ohio Cultivator Company, Bellevue, Ohio, a

corporation of' Ohio Originali application November 2, 1939, Serial'No. '$02,579. Divided and this application June 19,

1940, Serial No. 341,222

(Cl. 16S- 24) l1 Claims.

rihis invention relates to a baler; and/more particularly to a baler which is adapted to pick up the hay or other material directly from the ground as the baler is drawnv along. It is an object ofk my invention-to'devise; a pick-up-baler which is of simplified construction and which is smaller in dimensions so that it is more easily handled" in the field and is stored in a smaller space;and at the same time,.the,improved.baler offmyinvention is lighter; in: weight. than4 piel upbalers heretofore employed.` and, inV addition, consumes less power by` reason of they elimina.- tion ofi the operationV of lifting. the hay up to the topofithe baler.

Another object of myinvention-is to devise a pick-up baler" having a sidev feed, the feeding device feeding the hay or like material into the side ofthe present. chamber rather than into the top thereof: as has4 been commonheretofore. The

feeding of the baler from the side is .advantageous in that it assures a more uniform. bale on-the top' and bottom andiinthatiit simplifies the conn struction of the machine', thereby. rendering itA machine at one end ofythe side loader into a vertical position.

Itisfa further object to provideaside loader thatfis .mounted upon. suitable wheels at adjustable distances above the surface-of the ground in which'V side loader feeding fingers passbetweenlight weight strips on to atransverse feeding platform that easily feeds the hay towards shearing position where it is sheared in accurate increments prior to being moved into the compression chamber by theplunger.

Another object is to. devisefa baler wherein the compressing plungeris advanced relatively slowly andr is.4 retractedlat. relatively highrspeed, it being allowed-to dwell at substantially. its retractedposition for a .considerable vperiodof time so as to.=al1ow the feeding` mechanismrtolfeed in a greaterV charge of hay or the-like preparatory to the forwardstrohe ofthe plunger; thisgis accomplished by the use of a7 special linkage-for 55 ing-atthe rear Vof its stroke; this is accomplished moving the pressing plunger which linkage is designed to give improved results.

Another object is to devise a side-fed pressing chamber` which is provided with shearingbladesy on itsA side for'cutting' off the hay quickly and accurately as the plunger head passes by the forward edge ofthe feedfopening of the feeding chamber.

It is anobject of this invention to provideV av side feed with shearing mechanism operating with a compressionl plunger so that the material being fed inthrough the side of the chamber is accurately sheared, eliminating the necessity of repeated packings of the hay in the chamber before the spacer block canbe dropped.

Still another object is to eliminate the feed arm which has been used on balers heretofore devised, thereby simplifying Vthe constructionv and lowering the cost of repairs.

Another object is to provide a fully 'automatic feeder for feeding the baler, thereby'eliminating the necessity of having a man-tend to the feeding and lowering the labor cost'of operating theV machine.

Another object is to devise an automatic division block dropper which places the block inv the baler and which overcomes thenecessityfor losing three er four strokes of the plunger before the block canbe dropped; in thisway, the production of the machine is increased consider'- ably.

A further object of the invention is to provide in association with this mechanism means for controlling the dropping of the block'which is actuated by the amount of' hay that is being pressed into the compression chamber so that when asuflicient amount of hay has been compressed and loaded into the compression chamber, this device will have beenactuatedsuf'ciently to bring about a release of the spacer block. AndH furthermore, this is accomplished by synchronizing with the plunger packing the hay into the compression chamber, so' thatl the block will drop intoposition when the plungeris withdrawn;

It is a-further-object toprovide adjustable con'- tact blades on the mechanism for controlling the dropping of the spacer block so that a Varying amount of hay can be compressedin'the cornpression chamber to vary the size of the bale'.

Another object is to devise a baler in which the feeding mechanism is automatically. slowed up in speed as the plunger begins its forward stroke and epee-ded up While' the plunger is dwellwithout completely stopping either the plunger or the feeding mechanism so that the operation is continuous and the necessity for overcoming the inertia of stopped parts is avoided.

Still other objects will more fully hereinafter appear.

In the accompanying drawings:

Figure 1 is a diagrammatic perspective view showing the general arrangement of the machine; in this figure, certain of the parts have been separated from their actual position in order to make the showing more clear.

Figure 2 is a plan view of the baler.

Figure 3 is a side elevation of the baler shown in Figure 2.

Figure 4 is a horizontal sectional view taken through a portion of the feed chamber and the adjacent portion of the pressing chamber.

Figure 5 is a vertical sectional view showing the plunger moving forward in the press chamber showing the division block locked up. Y

Figure 6 is a View similar to Figure 5 but showing the plunger at the forward-most position of its stroke, showing the division block dropped onto the plunger so that it will be dropped into the pressing chamber as the plunger is retracted.

Figure 7 is a vertical sectional View showing the press chamber with the plunger moving rearwardly, having just dropped a division block into operative position in the press chamber. Y

Figure 8 is a View similar to Figure 7 but showing the plunger approaching the end of its forward strokeY and lshowing how the new charge of hay is compressed behind the divisionblock and pushes the division block ahead of it.

Figure 9 is a Vertical sectional view showing the details of the automatic mechanism for gauging the length of the bale and for accordingly dropping the division block into place at the proper time. n Y

Figure 10 is a similar View but showing a division block in the act of being dropped onto the pressing plunger by the automatic bale measuring mechanism.

Figure 11 is a detailed view showing the hook for preventing the division block from falling rearwardly just after it is dropped into the press chamber.

Figure 12 is a horizontal section similar to Figure 6, showing a modification of baling chamber.

General arrangement The baler illustrated in the drawings is of the type adapted to be drawn along the windrow in the eld by a tractor or other suitable draft source However, the baler is adapted for stationary use as well. The baler mechanism is operated by a power unit preferably carried 0n the baler frame itself and which may take the form 'of an internal combustion engine. The power unit drives both the feeding mechanism and the baling mechanism. The pick-up and feeding mechanism are carried at the side of the machine as a foldable element adapted to be folded up into substantially a vertical position for transportation or the like. The pick-up elements transfer the hay to a relatively low feeding table upon which are operated suitable conveyor means which convey the hay deposited thereon into the side opening of the longitudinally disposed baler mechanism when the plunger of the baler is'fully retracted. The speed of operation of the feeding device is controlled in accordance with the movement of the pressing plunger, being fast while the plunger is dwelling near the rear end of its stroke and being slowed up materially as the plunger comes forward in a pressing operation. Suitable overhead auxiliary feeding mechanism may be provided above the feeding table for beating the hay downwardly and forwardly into the pressing chamber.

The baler itself comprises a longitudinally disposed pressing chamber in which reciprocates a pressing plunger provided with shearing means cooperating with stationary shearing means to make a clean cut of the hay at each forward stroke of the plunger whereby the insertion of the division block is not interferred with. The pressing chamber is constricted at its extreme outer end by suitable means and the bales are pressed rearwardly of the machine, each bale as it is formed serving as an abutment for the formation of a succeeding bale and being thereafter expelled outwardly through the extreme outer end of the baler. In this specification, the movement of the press plunger during the pressing stroke will be spoken of as a forward movement of the plunger although in reality it is moving towards the rear end of the machine as it is drawn through the field.

Press and plunger operating mechanism Referring to the drawings in detail, reference numeral IU denotes an internal combustion power unit carried at the forward end of the machine as on longitudinal frame members II and driving a drive pulley I2. A clutch operated by handle I3 may be interposed between engine I0 and drive pulley I 2 if desired. Drive pulley I2 is adapted to drive pulley I4 by means of the multiple V-belts I5. Pulley I4 is mounted on a transverse shaft I 6 provided with a flywheel I1 and also provided with a pinion I8 enmeshing with a relatively large toothed pinion I9 on transverse shaft 20. Upon shaft 20 are mounted two pinions 2| of relatively small size which are enmeshed with the spaced bull gears 22 which are rotatably mounted in any suitable manner with respect to side frame members 23, as by means of stubshafts 24 and 25 which are fixedly attached to their respective'bull gears 22 and which serve to drive mechanism more fully described below. These stubshafts 24 and 25 do not project inwardly of the bull gears 22 so that the space between gears 22 is free for a purpose which will presently appear.

The press generally is designated by the reference numeral 26 and extends rearwardly of the machine from the driving end thereof, being supported upon the machine in any suitable manner. The press comprises a rectangular boxlike device having a substantially closed top 21 and bottom 28, and having side members 29 which leave the sides open for access by the workmen for the insertion of the tying wires. The press plunger is designated generally as 30 and is adapted to be moved to and fro in the forward end of the press 26 by means of the bull gears 22. The plunger 30 is shaped to approximately conform to the inner cross section of the press 26 and is provided with a rearwardly extending central ear 3l which is preferably integral with the one piece plunger head 32 which may desirably be of cast iron. Pitman 33 is pivoted to the ear 3| by means of pivot bolt 34 and is pivoted to one end of a toggle link 35 as at 36. Member 35 is provided with a stationary pivot point 31 about which it is free to rotate. A second pitman member 38 is disposed between bull gears 2 2 and toggle link 35, being pivoted to bull gearsv 22 through the intermediary of a T-shaped member. 4j, having a, crank` pin 39 and being pivoted to 4toggle link 3 5 at 4,0, which is adjacent pivot point 36 but is disposed along togglelink 35 in a direction towards pivotA point 31 and is also disposed slightly outwardly of the center line between pivot points 35 and 31 in a direction towards bull gears 22.

Asa result of the linkage. interposed between bull gears 22 and press plunger 3K0, press plunger 3Q is caused to be meved in a particularly advantageous manner. The angular. movement of crank pin 39 with respect to. bull, gears 22 will, ofcourse, be uniformr but this movementistransmitted to press plunger 3G inl such. a manner that press` plunger 3Q is slowly advancedbut is very rapidly retracted, thereby. allowing a maximuml period ottime for the charging of the space aheadl of the `press. plunger. In, addition, the press plunger will substantially dwell at the rearmost portion ofitsstroke for a considerable period of` time and this dwell coupled with. the slow forward lmovement: of the4 plunger allows a maximumamount of hay to be inserted foreach stroke'of the plunger.

Feeder and pick-up and drives therefor The feeder and pick-up assemblies are carried at the right hand-side Aof 'the'machine their outer end being supported by means of vertically adjustable wheels 42. The pi'ckup mechanism is disposed at .the forward end ofthe assembly and comprises a transversely disposedrshaft. 43V upon. which isiikedly mounted a rotatable reel 41T provided withendr-members 49 which are fixedly attached to shaft 46. Between the endsof the endv members-'69 are disposedrotatable pipe shafts 48 upon which are ke'dly mounted spring pickup teeth 50. Preferably, these teeth 50N are formed in pairs, each pair being formed from a single piece of spring wirewhich is'coiled around shaft 48 for a revolution and is then coiled in aV reverse direction for a second revolution, the

middle being fixedly'attached to shaft 48 in any suitable manner. The pick up teeth aredadapted to drop below the feed table 54V upon approaching the same. VThe coil spring providing means to permit the springing of the teeth or Amechanical means can be provided to accomplish this motion, thus allowing thev teeth`-to be pulled downwardly out f'hay picked up fromY the ground.

The pick-up device transfers the had` o ntov a transversely disposed feed table 5.1i whichislprovided with a rear wall 55, and end wall 55 andV a bottom 51. The. transfer from the pick-up reel to the feed table is effected by the` aide-f fiat sheet-like bent members 58V lying between adjacent spring teeth 50 andwhich are ,connect-,

ed in suitable manner to the frontnedge of the bottom'plate 51 ofthe feed table.

For carrying the hay deposited onvthe, feed table into the feed opening of the press chamber, a series of feed chains 59 lhaving upwardlyprojecting feed teeth 60 are provided lengthwise of the feed table 54. These feed chains V'tmove towards the baling chamber and are mounted around feeding sprockets 6I fixedly attachedto a feeding shaft S2, which rotates in a clockwise direction, thel outward ends of thesechains being mounted around outer idling sprockets 53 which may be journaled withrespectto the feeding and pick-up member in any suitable manner. Feeding shaft 62 is likewise journaled below the floor plate 510i. the feedingdevice, and on its forward en@ there is xedly attached@ gear 65 driven( by. a gear 65a xedly attached to`^ a sprocket 65h encircled by a sprocket chainA 65 also encircling an upper sprocket V61 mounted on a, rotatable. crank shaft 68. Shaft 9 8- also drives, thefupper tamping. mechanism .and the pressing reel The tamping mechanism comprises a pair.v of arms 69. (Figure` 1), disposed adjacent the mouth of the baling. .chamber and provided with spring teeth 10A for engaging the hay. Shaft 63l is, provided with twofcrankfportions 11|. disposedv opposite one. another. Arms S3 are journaled about these crank portions1| and are pivoted at 12 yto link members 13 which are pivoted. at 14, toa stationary portion of the mechanism, namely the right hand. edgeof the top plate 2,1,V of the baling press chamber. Thus, as shaftV is rotated in fa counter-clockwise direction, thev spring teeth 10 reach. outwardlyrand are then moved downwardly compressing. the yhay inwardly towards thebaling chamber, carryingthe hay into the baling chamber. After-y they moye inwardly to the end of their Stroke,` they are withdrawnupwardlyfor another stroke. The spring teeth 1G projectthrough slots 15 formed between curved sheet metal guidingI plates 16 whichl are secured at one of their endstothe left hand upper. edge of the feed open-ing. into.r the baling chamber and are secured at their oppositeends 18. in any suitablemannerv above the feeder, thusV forming a curved throat forgvuiding the hayjnto the baling chamber. Y

Mounted onthe rear endofshaft 68,is.a.pul. ley 'E9 which drives a belt Bil, irrturn` drivinga pulley 5| lixedly mounted on theend` of av shaft upon whichis firedly mounted a reel ofwooden paddles83- (Figure l), shaft 8 2, beineT jour,- naled in any suitable. manner as by. means of supportihgV armstfhtl'iusK reel 831s. rotated' during the feedingoperation.andr serves in con.A junction withthe tamping spring4 arms. 15. topress the hay or straw downwardly so that the conveyor chains 5 3 may carry it into` thepress without. difficultyv-` v Thus,` it will be seen thatnthe materialisfed directly into'the side of thepress and that the pck-up` attachment lifts the: hayV only to the level o f the floorplate] ofjthe feeding mechanism, rather than'up to the-` top of the .press as on the conventional machine.4

The Diet-11p eitahmeat is driven bra spreek.- ot S3 fixedly 'mountedo n the`- stubshaft, 2.5i of4 the left hand bull'gear 22,@sp10cket86- driving. a sprocket yt1 fixedly mounted on.A the pick-up. shaft 45 through the intermediary of sprocket, chain 83 which encircles'sprookets' and 8 1, Thus the pick-upvdevi'e is drivenat a constant, speed which is directly-proportional to the speed of bull gears 22 or of engine i9;

The feeding mechanism is driven from stubshaft 25. ofA bullfgears 2,2 through the interposition of enmeshing ellipticalgears 8 9 andk, elliptical gear 89 being rlxedlyY mounted onshafil 25 and elliptical. eee-.r Si! beinemountedonen auxiliary shaft 9ionwhich isu iixedly mounteda sprocket 92 which drives asprocketQSvrthrough opening of the press and are slowed down when the plunger 30 is across the feed opening of the press. The coupling of the two effects of the changing speed of operation of the feeding attachment and of the rapid retraction, long dwell in retracted position, and slow forward travel of the press plunger 30 cooperate with one another to make an unusually effective baler which is capable of very great production. While in diagrammatic view of Figure 1 the pick-up and feeding attachment is shown separated from the baling mechansmvfor the purposes of clarity, it will be understood that the bottom plate 51 of the feeding device and the bottom plate 28 of the baler are on the same horizontal level.

In order to make a clean bale and to prevent strands of hay from projecting across the feed opening of the press 26 as the plunger 30 is retracted, a pair of shearing knives are provided on the side of the press opening. These knives comprise a stationary shearing blade 91 fixedly mounted at the extreme forward edge of the feed opening (Figures l and 4). A cooperating shear blade 98 is xedly mounted on the adjacent side of the plunger head 32 and these blades 91 and 98 cut 01T the charge each time the plunger makes a pressing movement, thus making it unnecessary to let the press run idle for two or three plunger strokes in order to clear the bale before dropping the division block. Plunger 30 comprises four rearwardly extending tail members 99 (Figure 4) which are adapted to guide the plunger in its travel in the press chamber, and a left hand side plate which is adapted to close the feed opening as the plunger moves forward in its pressing stroke. The plunger 30 is also reinforced by truss members |0| disposed in any suitable manner in its tail section. Fixedly or integrally extending from plunger head 32 are a pair of ears |02 which pivotally carry a roller |03 which is disposed on the opposite side of the plunger from knife 98. A roller guide |04 is xedly mounted at its rear end as at |05 to the right hand side of the press chamber, its forward end being provided with an extension |06 adapted to be engaged by roller |03 and to thus resiliently press knife blade 98 into effective shearing engagement with stationary knife 91, roller guide |04 being yieldable outwardly to a slight extent to provide the desired shearing action. 'I'he forward end of roller guide |04 is adapted to be adjusted inwardly or outwardly by means of a flat member |01 carried on a fixed bolt |08 provided with adjusting nuts |09 and with a spring |0 engaging a xed portion of the press and adapted to urge member |01 outwardly. In this way the roller guide |04 can be adjusted transversely to keep the shear blades 98 and 91 operating at the proper clearance.

Automatic block dropping device The automatic block dropping device comprises a circular serrated wheel which projects downwardly through a slot ||2 in the top 21 of the baling compartment. This wheel comprises a plurality of radially adjustable serrated segments |3, one of the serrated segments being held in place by a pin ||4 which projects from the wheel and which is adapted to trip the block dropping device in a manner which will presently appear. Serrated wheel is adapted to be rotated by the compressing movementl of the hay within the baling chamber 26, being rotated in a counter-clockwise direction as viewed in Figures 9 and 10. The length of the bale is gauged by -10 to the position of Figure 7.

the circular wheel and this wheel is made adjustable in diameter so that the length of the bale may be adjusted as desired.

The division block ||5 is placed manually in a trough ||6 formed on the top of the press chamber and reclines therein slightly rearwardly against a supporting member ||1. ,Trough ||6 communicates with an opening IIB in the top of the press chamber, this opening ||8 being adapted to allow the division block to pass downwardly therethrough at the proper time into the press chamber at a point just ahead of the forward edge of the feed opening which carries knife blade 91 (Figure 2). The division block ||5 is normally supported by a pair of rods I9 extending through one side of trough member ||6. These rods ||9 remain in place while the bale is being built up and when the bale has been built up, .wheel will have rotated until pin ||4 will have tripped arm |20 downwardly, thereby pulling arm |2| upwardly through the intermediary of tension spring |22. As arm |2| is pulled upwardly, it releases pin |23 from the locking portion |24 of arm |2|, thus allowing pin |23 and arm |25 upon which pin 23 is fixedly mounted and to which slide rods ||9 are xedly attached to move forwardly. Arm |25 is fixedly mounted on a crank member |26 which has a crank end |21 adapted to be moved forwardly by reason of its operative interposition between a pair of coil springs |28 which are mounted between two members |29 and |30 upon an operating rod |3|, End |21 is provided with an ear 45 slidably encircling rod |3|, springs |28 abutting against ear 45. Rod |3| is reciprocated continuously during operation of the device by reason of its pivoted attachment to a crank member |32 (Figure 1) vwhich is xedly mounted on stubshaft 24 of the right hand bull gear 22.

Circular wheel is carried on the end of arms |33 which are pivoted about crank member |26 which in turn is journaled in the upper portion of supports |34. A hooked rod |35 ex tends upwardly from a stationary point' |36 of the press and is provided with a yoke |31 engaging the upper portions of arms |33, a spring |38 being mounted between yoke |31 and the adjustable nut |39 on the end of hooked member |35, whereby the force exerted downwardly upon the wheel urging it into contact with the material being compressed may be adjusted to suit the individual requirements.

Thus operating rod 3| which is reciprocated continuously is ineffective to withdraw pins I0 forwardly and to thereby drop the division block I5 onto plunger 30 except when wheel has made a complete revolution corresponding to the length of the bale and has tripped arm |2| upwardly, allowing rod |3| to withdraw the slide rods ||9 as rod |3| moves forwardly. The angular disposition of crank arm |32 upon stubshaft 24 is such that operating rod |3| releases a division block ||5 downwardly upon plunger 30 only when the plunger 30 is forward of the opening |8, thus preventing the plunger 30 from striking a division block and causing damage. Upon the retraction of plunger 30 the block ||5 is dropped from the position of Figures 6 and Even though pin ||4 trips arm |2| at any other time than when plunger 30 is forward of the opening 8, the operating interconnection is such that rod |3| would be moving rearwardly and thus would be tending to pull arm |25 rearwardly towards opening ||8, and thus tending to push the slide assedio rods '||,9, YI'ather than withdraw them from the troughll.`-V N.

To support the division block agains't 'tiltin'g rearwardly after it has been dropped :into the p ress chamber, there ,is provided` a block hook |40 (Figures 7, 9, 10 an d 11), `the hook end of which is projected into the interior of the press chamber by means of Va spring |41 ,f p In order tohold the compressedfcharges of hay, lor the divisionb1ock||5 from'co'ming rearwardly as plunger` 3U is retra'ctedspring pressed hooi; arms |42 (Figures 2 and. 5 to 8) are/provided on the top and bottom of the press cham,- `ber, the upper pair of hook members being formed so as to surroundthe divisionbloick opening H8, as indicated in Figure Y2. Preferably, :spring pressedhook members |43 are also provided opposite hool; members |42 and upon the sides of thepresvs (Figures 4, 9 and 10)'. A

TheV automatic block ldropper described herein is rendered completely successful due to the fact that the bale chambernisY rcleaned 'after each stroke by reason of the Voperatinof rthe knives 91 and 93 described above so that the block has a free space into whichl to go andmay be dropped upon any retraction stroke of the plunger 30. Thus it is not necessary to runvthe press two or three idle strokes without feeding material through it, in order toget the division block in place. A With prior balers, ity was necessary to stop the machine, declutch the feeder and run the press plungerY several idle strokes.

Figure 1 also illustrates the running board construction upon which the operators ofthe press whoV insert and tie the baling wires may stand. These running boards |41 are supported in-any suitable manner from the machine and extend alongside the compression portion of the baling press.

Figure 1 also illustratesV the adjustable mechanism |48 disposed on each side of the open end ofthe baling chamber and adapted to constrict this end of the baling chamber so vas to retain the bale therewithin to form an abutment against which a succeeding bale may be pressed. This toggle mechanism comprises arms |49 connected to the top and bottom ofthe press, cham,- ber and to an internally threaded member |58 within which is disposed a screw threaded ad- J'usting rod |5|. Thus as rod |5| is screwed inwardly, it forces the sides of thepress inwardly and the pressure of the bale pulls the top and bottom of the press inwardly, thereby constricting the opening on all four sides.

General The V-belt mainv drive embodying multiple V-belts l5 provides a safety device since the large pulley |4 which the V-belts drive Yalso acts as a friction relief clutch to prevent damage to the bale'r in case any obstruction should be encountered in any portion thereof.

A clutch |54 (Figure 2) may be provided if Ydesired for disengaging the drive to the bevel gears 95 and 9S driving the feeding attachment, namely shafts 68 and 62. u Y

It will be understood that plunger 3G maybe cutaway as at |55 (Figures 4 to 8) to permit it to pass by hook members |42 and |43.

In Figure l2 there is portrayed an improvedV and preferred form of baling chamber which is narrowed at the point |56 which is located immediately after the point Where the division block ||5 is dropped and on the side opposite the feed ppening, thus preventing material being baled from crowding around the block 'H5 and making 'it diiiicult for the operator Vto find the block for inserting wires for tying. This construction 'also 'gives plenty of clearance for the block "I I5 to drop into position through opening "I I8: The plunger 30 is correspondingly cut away at |53.

I wish it `to be understood that I intend to include as within my invention such modifications "as vmay :be necessary to a'daptthe saine to varying conditions 'and uses and vas fall within thetermsor the spirit of the appended claims.

This application is a divisional application of my 'copending application, Serial No. 302,579, l'edNQve'mbr 2,1939.

,Having thus' fully described Vvmy invention, .what I pcl'aim as new and desire 'to secure by Ietters'Patent is:

1. In combination, a 'compression chamber, a plunger operating therewithin, la division block opening located transversely in a wall of said chamber in a position where it is traversed by saidplunger in its forward position, means for positioning a division block* in `a substantially vertical position, reciprocable means extending into said positioning means upon which the bottom edge of a block can rest to prevent said divisionV blo'ck from being inserted through said opening, means carried by said 'reeiprocable means engaging latch means, .means operated by the movement of successive increments of material intpja bale 'for releasing said latchmeans so that's'aid reciproeable means can be operated to allow, insrti'onof a division block through said opening', v'and means synchronized "with movement of saidplunger for operating said reciprocable meansto allow insertion of a division block only when said plunger is across said opening.

v2. AIn mechanism for controlling the insertion of abale4 division blockinto a baler, a peripherally serrated rotatable wheel adapted to be inserted into engagement with the material being baled and vto be ,rotated by the successive increments of ,material `asthey are compressed, means for yieldin'gly kholding said wheel into said engagement, lmeans for retaining and releasing a division block, apin on s'aid last-named means, a trippablerl'ever for releasing said pin and allowing said last-named means to be operated to release adivision ib'lvock, a lever for operating said trippable levenyielding means operatively interconnecting sai'ditrippable lever and said lastnamed lever, and apin on said wheel for operating said last-'named lever and thereby said trippable lever to `release said first-named pin.

3; In Vmechanism for controlling the insertion of a bale division block into a baler, a peripheral- 1y 'serrated rotatablewheel adapted to be inserted intoengagement with the material being baled andto be rotated by the successive increments of material as they are compressed, means for yieldingly holding said wheel into said engagement, means for retaining and releasing a division block, a pin on said last-named means, a trippable lever for releasing said pin and allowing said last-named means to be operated to release a division block, a lever for operating said trippable leveryielding means operatively interconnecting said trippable lever and said last-named lever, a pin on said wheel for operating said lastnamed levertand thereby said trippable lever to releasesaidiirst-named pin, means reciprocated in accordance with movement of the baler plunger,hyielding meane operatively disposed between said last-named means and said means for retaining and releasing a division block on both,

sides thereof, whereby reciprocation oi said reciprocated means in one direction is always ineffective to release said division block, and reciprocation of said reciprocated means in other direction is effective to release said division block only when said rst-named pin has been released by said trippable lever.

4. In a baler, a horizontal pressing chamber, a pressing plunger adapted to reciprocate therein and to form a bale therein, means for positioning a bale division block in a substantially vertical position with respect to the pressing chamber and above an opening therein through which the block can drop, reciprocable supporting means extending transversely cf said positioning means to support said block while in said position, latch means normally preventing reciprocation of said support means, and means effective when a bale of predetermined length has been formed for automaticaly releasing said latch means to permit reciprocation of said supporting means and withdraw the same from beneath said block.

5. In a baler, a pressing chamber, a pressing plunger adapted to reciprocate therein and to form a bale therein, said chamber having an opening in the wall thereof through which a bale division block is adapted to be introduced transversely of said chamber, means for reciprocating said plunger, said opening being traversed by the path of said plunger, means for positioning said block in a substantially vertical position with respect to said chamber, reciprocable supporting means extending transversely of said positioning means, means for reciprocating said support means, latch means for preventing said reciprocation, means for automatically tripping said latch means when a bale of predetermined length has been formed, and means released by tripping of said latch means for operating said supporting means only when said plunger covers said opening.

6. In a. baler, a pressing chamber, a pressing plunger adapted to reciprocate therein, means for reciprocating said plunger, said chamber having a bale block receiving opening in the forward portion of the path of said plunger, means for positioning a bale block in a substantially vertical position to be inserted through said opening into said chamber, a reciprocable rod extending transversely of said positioning means for supporting said block above said opening, means for reciprocating said rod so as to release said bale block and permit it to fall by gravity into said chamber, latch means interconnecting said rod and said reciprocating means to normally prevent said reciprocating means from actuating said rod, and means for automatically tripping said latch means when a bale of desired length has been formed, said last named means being timed in accordance with the movement of said plunger to trip said latch means only when said plunger is on compression stroke, said block falling by gravity into said chamber when said plunger is retracted beyond the position of said bale block receiving opening.

'7. A block dropping apparatus for a baling machine comprising means for positioning a division block in a substantially vertical position, a reciprocable rod extending into said positioning means for supporting a block therein, lever means carried by said rod, a second lever means engaging said rst mentioned lever means and forming a latch therewith, a wheel positioned in engagement with material passing through the CII baling machine, means carried by said wheel for operatively actuating said second mentioned lever means to release latching engagement with said rst mentioned lever means, and means for causing reciprocation of said rod when said latching means is disengaged to permit a block to drop into the baling machine.

8. A block dropping apparatus for a bailing machine comprising means for positioning a division block in a substantially vertical position, a reciprocable rod extending into said positioning means for supporting a block therein, lever means engaging said rod, a wheel positioned in engagement with material passing through the baling machine, lever means operatively interconnecting said Wheel with said first mentioned lever means for releasing the same from said rod upon passage of a predetermined length of bale through the machine, and means for causing reciprocation of said rod to release a block and permit the same to drop by gravity into the machine.

9. A block dropping apparatus for a baling machine comprising means for positioning a division block in a substantially vertical position, a reciprocable rod extending into said positioning means for supporting a block therein, a protrusion carried by said rod, lever means engaging said protrusion, a second lever means pivotally carried upon said first mentioned lever means, resilient means interposed between said lever means, mea'ns for supporting both of said level means at the pivotal connection thereof, means elective when a bale of predetermined length has been formed for actuating said second lever means which in turn actuates said rst lever means to release the same from said protrusion, and means for causing reciprocation of said rod to permit a block to drop into the machine.

10. A mechanism for automatically dropping a division block behind a bale in a baling machine which consists of a reciprocable supportingr means for a block, a crank arm operatively associated with said supporting means, resilient means engaging said crank arm for causing movement thereof to reciprocate said supporting means, latch means operatively associated with said supporting means to prevent reciprocation thereof, and means effective when a bale of predetermined length has been formed for actuating said latch means to release said supporting means for reciprocation.

11. A mechanism for automatically dropping a division block behind a bale in a baling machine which consists of a reciprocable supporting means for a block, a crank arm operatively associated with said supporting means, resilient means engaging said crank arm for causing movement thereof to reciprocate said supporting means, lever means carried by said crank arm for supporting a wheel in engagement with material being baled in the machine, latch engaging means carried by said supporting means, a latching lever pivotally supported by said wheel supporting lever, and means operatively interconnecting said wheel with said latching lever to release the same from said latch engaging means upon passage of a determined length of bale through the machine, whereby said reciprocating means can actuate said crank arm to reciprocate said supporting means and release a block through the machine.

EROS V. BARKER. 

